Formation and corrosion properties of Fe-based bulk metallic glasses 被引量：3

Formation and corrosion properties of Fe-based bulk metallic glasses

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摘要 Bulk metallic glass （BMG） formation was explored in the Fe-B-Si-Nb alloy system though combined use of the atomic cluster line approach and the minor alloying strategy. The basic ternary compositions in the Fe-B-Si system were determined by the intersection points of two cluster lines, namely, Fe-B cluster to Si and Fe-Si cluster to B. 3at% -4at% Nb was added to the quaternary Fe-B-Si-Nb alloy. The casting experiments revealed that good glass-forming ability （GFA） occurred at the （Fe73.4Si8.2B18.4）96Nb4 composition, and 3-mm diameter BMG samples were made. The glass transition temperature （Tg）, crystallization temperature （Tx）, and supercooled liquid region （△Tx=Tx-Tg） of this BMG were measured to be 866, 889, and 23 K, respectively. The BMG shows a high Vickers hardness of about Hv 1164, a Young＇s modulus of 180 GPa, and a good corrosion resistance in the solutions of 1 mol/L HCl and 3wt% NaCl. Bulk metallic glass （BMG） formation was explored in the Fe-B-Si-Nb alloy system though combined use of the atomic cluster line approach and the minor alloying strategy. The basic ternary compositions in the Fe-B-Si system were determined by the intersection points of two cluster lines, namely, Fe-B cluster to Si and Fe-Si cluster to B. 3at% -4at% Nb was added to the quaternary Fe-B-Si-Nb alloy. The casting experiments revealed that good glass-forming ability （GFA） occurred at the （Fe73.4Si8.2B18.4）96Nb4 composition, and 3-mm diameter BMG samples were made. The glass transition temperature （Tg）, crystallization temperature （Tx）, and supercooled liquid region （△Tx=Tx-Tg） of this BMG were measured to be 866, 889, and 23 K, respectively. The BMG shows a high Vickers hardness of about Hv 1164, a Young＇s modulus of 180 GPa, and a good corrosion resistance in the solutions of 1 mol/L HCl and 3wt% NaCl.

作者 Chun-lei Zhu Qing Wang Jie Zhang Ying-min Wang Chuang Dong

机构地区 School of Material Science and Engineering

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2010年第3期323-326,共4页 矿物冶金与材料学报（英文版）

基金 supported by the National Natural Science Foundation of China (Nos50901012 and 50631010) the National Basic Research Priorities Program of China (No2007CB613902)

关键词 bulk metallic glasses （BMG） CLUSTER atomic cluster CORROSION glass-forming ability bulk metallic glasses （BMG） cluster atomic cluster corrosion glass-forming ability

分类号 TG139.8 [一般工业技术—材料科学与工程] TQ050.4 [化学工程]

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参考文献16

1P.Duwez and S.C.H.Lin,Amorphous ferromagnetic phase in iron-caibon-phosphorus alloys,J.Appl.Phys.,38(1967),No.1O,p.4096.
2A.Inoue,Stabilization of metallic supercooled liquid and bulk amorphous alloys,Acta Mater.,48(2000),No.1,p.279.
3A.Inoue and N.Nishiyama,New bulk metallic glasses for applications as magnetic-sensing,chemical,and structural materials,MRS.Bull.,32(2007),No.8,p.651.
4A.Inoue,H.Yamamoto,and T.Masumoto,Glass transition behavior of (Fe,Co,Ni)-Si-B amorphous alloys,Mater.Trans.JIM,9(1989),No.30,p.667.
5A.L.Greer,Metallic glasses,Science,267(1995),No.5206,p.1947.
6D.Ma,H.Tan,Y.Zhang,and Y.Li,Correlation between glass formation and type of eutectic coupled zone in eutectic alloys,Mater.Trans.JIM,10(2003),No.44,p.2007.
7Z.P.Lu and C.T.Liu,Role of minor alloying additions in formation of bulk metallic glasses:a review,J.Mater.Sci.,39(2004),No.12,p.3965.
8Y.M.Wang,JB.Qiang,C.H.Wong,et al.,Composition rule of bulk metallic glasses and quasicrystals using electron con-centration criterion,J.Mater.Res.,18(2003),No.3,p.642.
9Q.Wang,J.B.Qiang,Y.M.Wang,et al.,Composition opti-mization of the Cu-based Cu-Zr-Al alloys,Intermetallics,12(2004),No.10-11,p.1229.
10J.Wu,Q.Wang,J.B.Qiang,et al,Sm-based Sm-Al-Ni ternary bulk metallic glasses,J.Mater.Res.,22(2007),No.5-6,p.573.

同被引文献20

1Z.P. Lu, C.T. Liu. Role of minor alloying additions in formation of bulk metallic glasses: A Review [J] Journal of Materials Science, 2004, 39(12): 3965-3974.
2D.Z. Segu, J.H. Choi, S.S. Kim. Sliding wear behavior of Fe-based bulk metallic glass at high temperature[J]. Journal of Mechanical Science and Technology,-2012, 26(11): 3565-3570.
3R. Furstner, W. Barthlott, C. Neinhuis, et al. Wetting and self-cleaning properties Of artifi- cial super-hydrophobic surfaces[J]. Langmuir, 2005, 21(3): 956-961.
4M. Thieme, R. Frenzel, V. Hein, et al. Metal surfaces with ultra-hydrophobic properties: perspectives for corrosion protection and self-cleaning[J]. Corros. Sci. Eng., 2003, 6: 47.
5J. Ou, B. Perot, J.P. Rothstein. Laminar drag reduction in micro-channels using ultra- hydrophobic surfaces[J]. Phys. Fluids., 2004, 16: 4635-4643.
6T. Zako, A. Nakajima, H. Irie, et al. Adhesion and sliding of wet snow on a super-hydrophobic surface with hydrophilic channels[J]. Mater. Sci., 2004, 39: 547-555.
73. G. Detrya, S. Marianne, D. Claude. Hygiene and Cleanability: A Focus on Surfaces[J]. Critical Reviews in Food Science and Nutrition, 2010, 50: 583-604.
8L.A. Girifalco, J. Good. A theory for the estimation of surface and interfacial energies. I.Derivation and application to interracial tension[J]. J. Phys. Chem, 1957, 61: 904-909.
9C. Neinhuis, W. Barthlott. Characterization and distribution of water-repellent, self-cleaning plant surfaces[J]. Annals of Botany, 1997(79): 667-677.
10K. Zhao, K.S. Liu, J.F. Li, et al. Superamphiphobic CaLi-based bulk metallic glasses[J]. Scripta Materialia, 2009, 60: 225-227.

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2苏鸿英（译）.磨擦搅拌焊铝板的热处理技术[J].有色金属再生与利用,2006(9):53-53.
3曹福永.压制630kg坯料用铝型材挤压机[J].有色设备,2009(2):62-62.
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6Mark Albert.硬铣削势在必行[J].现代制造,2008(16):50-54.
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9黄文梅（摘译）.钛的热处理[J].现代材料动态,2012(4):12-13.
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International Journal of Minerals,Metallurgy and Materials

2010年第3期

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Formation and corrosion properties of Fe-based bulk metallic glasses 被引量：3

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